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EP1831515A1 - New two-stroke internal combustion engine supplied with gasoline, diesel, fuel, or other conventional fuel - Google Patents

New two-stroke internal combustion engine supplied with gasoline, diesel, fuel, or other conventional fuel

Info

Publication number
EP1831515A1
EP1831515A1 EP05794503A EP05794503A EP1831515A1 EP 1831515 A1 EP1831515 A1 EP 1831515A1 EP 05794503 A EP05794503 A EP 05794503A EP 05794503 A EP05794503 A EP 05794503A EP 1831515 A1 EP1831515 A1 EP 1831515A1
Authority
EP
European Patent Office
Prior art keywords
head
combustion engine
internal combustion
slidable
engine according
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP05794503A
Other languages
German (de)
French (fr)
Inventor
Ivan Skulic
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Publication of EP1831515A1 publication Critical patent/EP1831515A1/en
Withdrawn legal-status Critical Current

Links

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02BINTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
    • F02B33/00Engines characterised by provision of pumps for charging or scavenging
    • F02B33/02Engines with reciprocating-piston pumps; Engines with crankcase pumps
    • F02B33/06Engines with reciprocating-piston pumps; Engines with crankcase pumps with reciprocating-piston pumps other than simple crankcase pumps
    • F02B33/08Engines with reciprocating-piston pumps; Engines with crankcase pumps with reciprocating-piston pumps other than simple crankcase pumps with the working-cylinder head arranged between working and pumping cylinders
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02BINTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
    • F02B25/00Engines characterised by using fresh charge for scavenging cylinders
    • F02B25/02Engines characterised by using fresh charge for scavenging cylinders using unidirectional scavenging
    • F02B25/08Engines with oppositely-moving reciprocating working pistons
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02BINTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
    • F02B75/00Other engines
    • F02B75/28Engines with two or more pistons reciprocating within same cylinder or within essentially coaxial cylinders

Definitions

  • the present invention concerns a new two-stroke internal combustion engine supplied with gasoline, diesel, fuel, or other conventional fuel.
  • the invention concerns a new engine studied in such a way to optimise the operation of the same, eliminating the typical drawbacks of the two-stroke engines and of the four-stroke engines.
  • two-stroke engines encounter a scavenging problem, and specifically the pollution due to the ejection of oil introduced inside the combustion chamber along with fuel, as well as reliability of the engines.
  • four-stroke engines have problems relevant to the efficiency; however, they are preferred with respect to the two-stroke engines due to their higher reliability.
  • the solution suggested according to the present invention allows realising an inner combustion engine that can be supplied with gasoline or diesel fuel, according to the specific design choices, thus exploiting its maximum potentiality, supplying not mixed fuel and with separated lubrication, as in the four-stroke engines.
  • the solution according to the invention is based on the needing of optimising the engine cycles, particularly two-stroke engines, in such a way to ensure the complete expulsion of the burned gases and, at the same time, a maximum filling in of the cylinder with fresh air, not allowing the realisation of a burned gas and fresh air mixture.
  • Another object of the present invention is that of obtaining an engine having a better combustion and a better expansion. It is therefore specific object of the present invention a two- stroke internal combustion engine supplied with gasoline, diesel, fuel, or other conventional fuel comprising a piston - cylinder assembly, said cylinder providing exhaust ports, said piston - cylinder assembly providing a head slidable within said cylinder between the Top Dead Centre of the piston stroke and a closure position of the exhaust ports, said slidable head providing a transfer valve for fresh air or fresh air - fuel mixture within the compression and burst chamber of the piston - cylinder assembly, sliding of said slidable head inside the cylinder being controlled by actuation means co-ordinated with the piston actuation system, upward said slidable head a fresh air or fresh air - fuel mixture system being provided for suction during the stroke of said slidable head between the Top Dead Centre and the exhaust port closure point.
  • said slidable head provides a transfer valve controlled by at least a spring.
  • said actuation means for the slidable head provide a transmission from the output shaft to the rotation shaft of the slidable head.
  • an opening is provided for admission of fresh air or fresh air - fuel mixture
  • a rotating disc being provided on said rotation shaft of the slidable head
  • a second opening being provided on said rotating disc, said second opening interfering with said first opening, for admission of fresh air or fresh air - fuel mixture in correspondence of the stroke of said slidable head between the Top Dead Centre and the exhaust port closure point.
  • said slidable head can be actuated by a mechanical system, by a hydraulic or pneumatic system, or by an electro-magnetic coil.
  • said slidable head can be moved by the action of a spring.
  • spark plug can be mounted on the engine head, or it can be mounted on the slidable head.
  • transfer valve of the slidable head can be a reed head, or another type of head determining the inner shape of the slidable head, as well as the dimensions of the same.
  • upper surface of the piston can be provided with a seat complementary with the shape of said slidable head.
  • Engine according to the invention can be supplied with gasoline or diesel fuel.
  • said actuation means of the slidable head provide a crankshaft connected with the output shaft by a toothed belt, with a 1 :1 transmission ratio, said cam being realised with a particular thrusting curve, so as to act with delay on the slidable head notwithstanding it is rotating, said cam having a straight part allowing ascent of the head, by the action of springs, in a much quicker way, so that, when the piston closes the exhaust ports, head is at the Top Dead Centre, having already carried out the transfer action of the fresh mixture through the transfer valve.
  • said head could be actuated by electric coil, compressed air or hydraulic mechanisms.
  • engine having the features of four-stroke engines with the advantage that, while traditional four-stroke engines the whole cycle requires two revolutions of the output shaft, engine according to the invention makes the whole cycle with a single revolution of the output shaft, as in the traditional two-stroke engines;
  • figure 1 is a section view of a first embodiment of an engine according to the invention in a first operative position
  • figure 2 is a section view of the engine of figure 1 in a second operative position
  • figure 3 is a section view of the engine of figure 1 in a third operative position
  • figure 4 is a section view of the engine of figure 1 in a fourth operative position
  • figure 5 is a section view of the engine of figure 1 in a fifth operative position
  • figure 6 is a section view of the engine of figure 1 in a sixth operative position
  • figure 7 is a section view of the engine of figure 1 in a seventh operative position
  • figure 8 is a section view of the engine of the previous figures in a further operative position
  • figure 9 is a section view of the engine of the previous figures, similar to figure 8, in a different operative position
  • figure 10 is a section view of a second embodiment
  • FIG. 1 Observing first figures 1 - 9 of the enclosed drawings, it is shown a first embodiment of an engine according to the invention, comprising a cylinder 1 , a piston 2, a connecting rod 3 and crank 4 system for movement of piston 2, a slidable head, generically indicated by reference number 5, and that will be described in greater detail in the following, a connecting rod 6 and crank 6 system for movement of the slidable head, an air and/or fuel suction system, generically indicated by reference number 8, and that will be described in greater detail in the following, as well as a system for transferring the motion (see particularly figures 8 and 9) of the connecting rod 6 and crank 6 system for movement of the slidable head 5, said system for transferring the motion being generically indicated by reference number 10, and being described in greater detail in the following.
  • engine according to the invention is realised providing, inside the cylinder 1 of the standard two- stroke engine, a disc-shaped cylindrical body 5, with an air transfer valve 9, having a large diameter and actuated by a spring 10.
  • Slidable head 5 with the valve 9 is the multi-functional mechanism to carry out scavenging of the cylinder, so as to eject the burst gases by the exhaust ports 11 , and at the same time carrying out intake of fresh air inside the cylinder 1.
  • a rotating disc 8 is provided above the slidable head 5, having an opening 13 for admission of air or air - fuel mixture, said opening interacting with an opening 14, shown in dashed line in figures 1 - 7, and that can be seen in figures 8 and 9.
  • opening 13 is not interfering with opening 14, so that fresh air is not introduced.
  • the expansion step occurs after the burst (figure 2), so that piston 2 reaches the position close to the covering of the scavenging 11 realised on the cylinder. Then (figures 3 and 4) piston 2 continues its stroke downward, opening the exhaust ports 11 for ejection of burst gases. Now, the downward movement of the slidable head 5 begins, by the transfer of the motion from the connecting rod 3 and crank 4 system for movement of piston 2 to the slidable head 5, and that will be described in greater detail in the following.
  • said slidable head 5 runs all along the volume of the cylinder chamber 15 while the piston 2 covers the space of the ports 11.
  • opening 13 covers the whole extension of the opening 14 admitting air or air and fuel within the chamber 16, and consequently also inside the chamber 15 during its emptying.
  • the cylinder scavenging and fresh air admission phase occurs when the slidable head 5 moves toward the B.D.C. (figures 2 and 3).
  • transfer valve 10 is always open, thus allowing the passage of the intake air from the upper part 16 to the lower part 15, i.e. between the head 5 and the piston 2.
  • the system is realised in such a way that the movement of the slidable head 5 from its T.D.C. toward is B.D.C. exactly begins when the piston is beginning the opening of the exhaust ports 11 , ending when piston 2 is at its B.D.C. (figure 4).
  • Movement of slidable head 5 is obtained by a transmission mechanism, generically indicated by reference number 10 that, coupled with the output shaft 17, transmits the rotation to the axis 18 of the slidable head 5.
  • Transmission of rotation occurs in correspondence of a set arc of the output shaft 18 revolution, and particularly in correspondence of an arc of about 104°, corresponding to the arc between the point when the exhaust ports begins opening and the point when the exhaust ports 11 close (piston 2, during the rotation of the output shaft 18 along this arc opens exhaust ports 11 and, passing through its B.D.C, begins its stroke toward its T.D.C. until closing the exhaust ports 11).
  • upper part 19 of piston 2 is shaped complementary with the slidable head 5.
  • a spring 20 is provided, telescopically mounted within the connecting rod 6 of the mechanism for moving the slidable head 5, and serving for dampening the burst induced shock, thus reducing the pressure on the connecting rod of the transfer valve 10.
  • Springs 21 have been provided for obtaining the same result, above the slidable head 5 (the preferable number of the springs is not indicated).
  • Said system 10 provides a disc 30, with a raised arc 31 , of about 104° of the arc of the output shaft 17, so as to interfere with a toothed wheel 32 of hydraulic pump 33. Once the hydraulic pump has been actuated, it causes pressure of oil sufficient to actuating the motion of the slidable head 5.
  • crankshaft 34 connected with the output shaft 18 by a toothed belt (not shown), with a transmission ratio 1 :1.
  • Cam 34 is realised with a particular thrusting curve, in such a way to have a delayed effect on the slidable head 5, notwithstanding it is rotating.
  • head 5 makes its whole stroke while piston 2 opens and closes exhaust ports 11.
  • said head 5 could be actuated by an electric coil, by compressed air or by hydraulic mechanisms (not shown in the figures), the same technical teachings of the previous embodiments remaining valid.

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Combustion Methods Of Internal-Combustion Engines (AREA)
  • Valve Device For Special Equipments (AREA)
  • Valve-Gear Or Valve Arrangements (AREA)
  • Cylinder Crankcases Of Internal Combustion Engines (AREA)

Abstract

The invention concerns a two-stroke internal combustion engine supplied with gasoline, diesel, fuel, or other conventional fuel comprising a piston (2) - cylinder (1) assembly, said cylinder (1) providing exhaust ports (11), said piston (2) - cylinder (1) assembly providing a head (5) slidable within said cylinder (1) between the Top Dead Centre of the piston (2) stroke and a closure position of the exhaust ports (11), said slidable head (5) providing a transfer valve (9) for fresh air or fresh air fuel mixture within the compression and burst chamber of the piston (2) - cylinder (1) assembly, sliding of said slidable head (5) inside the cylinder (1) being controlled by actuation means co-ordinated with the piston (2) actuation system, upward said slidable head (5) a fresh air or fresh air - fuel mixture system (13, 14) being provided for suction during the stroke of said slidable head (5) between the Top Dead Centre and the exhaust port (11) closure point.

Description

NEW TWO-STROKE INTERNAL COMBUSTION ENGINE
SUPPLIED WITH GASOLINE, DIESEL, FUEL, OR OTHER
CONVENTIONAL FUEL
The present invention concerns a new two-stroke internal combustion engine supplied with gasoline, diesel, fuel, or other conventional fuel.
More specifically, the invention concerns a new engine studied in such a way to optimise the operation of the same, eliminating the typical drawbacks of the two-stroke engines and of the four-stroke engines.
Study and development of the inner combustion engines since from the 19th century have been prosecuted without any stop in order to find engines with an always higher efficiency, and at the same time with the lower pollution possible. Technical features of two- and four-stroke engines are well known and thus they will not be discussed in the following.
However, it is deemed useful remembering that two-stroke engines encounter a scavenging problem, and specifically the pollution due to the ejection of oil introduced inside the combustion chamber along with fuel, as well as reliability of the engines. Instead, four-stroke engines have problems relevant to the efficiency; however, they are preferred with respect to the two-stroke engines due to their higher reliability.
Within the framework comprising the existing engines, including also Diesel engines, Applicants suggest an innovative solution for a new and improved inner combustion engine.
The solution suggested according to the present invention allows realising an inner combustion engine that can be supplied with gasoline or diesel fuel, according to the specific design choices, thus exploiting its maximum potentiality, supplying not mixed fuel and with separated lubrication, as in the four-stroke engines.
The solution according to the invention is based on the needing of optimising the engine cycles, particularly two-stroke engines, in such a way to ensure the complete expulsion of the burned gases and, at the same time, a maximum filling in of the cylinder with fresh air, not allowing the realisation of a burned gas and fresh air mixture.
Another object of the present invention is that of obtaining an engine having a better combustion and a better expansion. It is therefore specific object of the present invention a two- stroke internal combustion engine supplied with gasoline, diesel, fuel, or other conventional fuel comprising a piston - cylinder assembly, said cylinder providing exhaust ports, said piston - cylinder assembly providing a head slidable within said cylinder between the Top Dead Centre of the piston stroke and a closure position of the exhaust ports, said slidable head providing a transfer valve for fresh air or fresh air - fuel mixture within the compression and burst chamber of the piston - cylinder assembly, sliding of said slidable head inside the cylinder being controlled by actuation means co-ordinated with the piston actuation system, upward said slidable head a fresh air or fresh air - fuel mixture system being provided for suction during the stroke of said slidable head between the Top Dead Centre and the exhaust port closure point.
Preferably, according to the invention, said slidable head provides a transfer valve controlled by at least a spring.
Still according to the invention, said actuation means for the slidable head provide a transmission from the output shaft to the rotation shaft of the slidable head.
Furthermore, according to the invention, above said slidable head an opening is provided for admission of fresh air or fresh air - fuel mixture, a rotating disc being provided on said rotation shaft of the slidable head, a second opening being provided on said rotating disc, said second opening interfering with said first opening, for admission of fresh air or fresh air - fuel mixture in correspondence of the stroke of said slidable head between the Top Dead Centre and the exhaust port closure point.
According to the invention, said slidable head can be actuated by a mechanical system, by a hydraulic or pneumatic system, or by an electro-magnetic coil.
Still according to the invention, said slidable head can be moved by the action of a spring.
Furthermore, according to the invention, spark plug can be mounted on the engine head, or it can be mounted on the slidable head.
Further, according to the invention, transfer valve of the slidable head can be a reed head, or another type of head determining the inner shape of the slidable head, as well as the dimensions of the same. Always according to the invention, upper surface of the piston can be provided with a seat complementary with the shape of said slidable head.
Engine according to the invention can be supplied with gasoline or diesel fuel.
Further, it can be provided a standard supplying, with carburettor, of the direct injection of the fuel.
It is also possible providing, according to the invention, means for reducing the effects of the burst on the slidable head. Still according to the invention, said actuation means of the slidable head provide a crankshaft connected with the output shaft by a toothed belt, with a 1 :1 transmission ratio, said cam being realised with a particular thrusting curve, so as to act with delay on the slidable head notwithstanding it is rotating, said cam having a straight part allowing ascent of the head, by the action of springs, in a much quicker way, so that, when the piston closes the exhaust ports, head is at the Top Dead Centre, having already carried out the transfer action of the fresh mixture through the transfer valve.
Always according to the invention, said head could be actuated by electric coil, compressed air or hydraulic mechanisms.
By the solution suggested according to the present invention, the following advantages are obtained:
• optimised discharge cycles of the burst gases and suction - charging of the fresh air within the cylinder; • contemporaneous and separated exchange of (burst and fresh) gases within the cylinder, particularly important for two-stroke engines, presently suffering of lacking or not efficient scavenging of the cylinder an complete charging with fresh air; • controlled gas combustion and expansion of the slidable head;
• it completely avoids the need of classic valves as well as the relevant control and movement systems;
• engine having the features of four-stroke engines with the advantage that, while traditional four-stroke engines the whole cycle requires two revolutions of the output shaft, engine according to the invention makes the whole cycle with a single revolution of the output shaft, as in the traditional two-stroke engines;
• transfer paths for air/gasoline mixture from engine carter to the cylinder are eliminated; • it is exploited the typical lubrication of the four-stroke engines;
• it is no more used the oil/fuel mixture, thus obtaining remarkable environmental advantages;
• all the drawbacks of the traditional two-stroke engines are prevented, at the same time maintaining their advantages;
• constructive advantages are obtained, with particular reference to the engine head.
The present invention will be now described, for illustrative but not limitative purposes, according to its preferred embodiments, with particular reference to the figures of the enclosed drawings, wherein: figure 1 is a section view of a first embodiment of an engine according to the invention in a first operative position; figure 2 is a section view of the engine of figure 1 in a second operative position; figure 3 is a section view of the engine of figure 1 in a third operative position; figure 4 is a section view of the engine of figure 1 in a fourth operative position; figure 5 is a section view of the engine of figure 1 in a fifth operative position; figure 6 is a section view of the engine of figure 1 in a sixth operative position; figure 7 is a section view of the engine of figure 1 in a seventh operative position; figure 8 is a section view of the engine of the previous figures in a further operative position; figure 9 is a section view of the engine of the previous figures, similar to figure 8, in a different operative position; figure 10 is a section view of a second embodiment of an engine according to the invention in a first operative position; figure 11 is a section view of a second embodiment of an engine according to the invention in a second operative position; figure 12 is a section view of a second embodiment of an engine according to the invention in a third operative position; figure 13 is a section view of a third embodiment of an engine according to the invention in a first operative position; figure 14 is a section view of a third embodiment of an engine according to the invention in a second operative position; figure 15 is a section view of a fourth embodiment of an engine according to the invention in a first operative position; figure 16 is a section view of a fourth embodiment of an engine according to the invention in a second operative position; and figure 17 is a section view of a fourth embodiment of an engine according to the invention in a third operative position. Observing first figures 1 - 9 of the enclosed drawings, it is shown a first embodiment of an engine according to the invention, comprising a cylinder 1 , a piston 2, a connecting rod 3 and crank 4 system for movement of piston 2, a slidable head, generically indicated by reference number 5, and that will be described in greater detail in the following, a connecting rod 6 and crank 6 system for movement of the slidable head, an air and/or fuel suction system, generically indicated by reference number 8, and that will be described in greater detail in the following, as well as a system for transferring the motion (see particularly figures 8 and 9) of the connecting rod 6 and crank 6 system for movement of the slidable head 5, said system for transferring the motion being generically indicated by reference number 10, and being described in greater detail in the following.
As it can be noted from the figures, engine according to the invention is realised providing, inside the cylinder 1 of the standard two- stroke engine, a disc-shaped cylindrical body 5, with an air transfer valve 9, having a large diameter and actuated by a spring 10.
Slidable head 5 with the valve 9 is the multi-functional mechanism to carry out scavenging of the cylinder, so as to eject the burst gases by the exhaust ports 11 , and at the same time carrying out intake of fresh air inside the cylinder 1.
The operation cycle of the engine shown in figures 1 - 9 of the enclosed drawings will be shortly described in the following. Observing first figure 1 , piston 2 is in correspondence of its Top
Dead Centre (T.D.C.), where the burst occurs by the spark plug 12. It must be pointed out the ignition of mixture can be obtained by every other system, as well as that the fuel can be suctioned mixed with fresh air, or injected separately, e.g. by electronic injection.
As it can be noted from the figures, a rotating disc 8 is provided above the slidable head 5, having an opening 13 for admission of air or air - fuel mixture, said opening interacting with an opening 14, shown in dashed line in figures 1 - 7, and that can be seen in figures 8 and 9. In the position of figure 1 , opening 13 is not interfering with opening 14, so that fresh air is not introduced.
The expansion step occurs after the burst (figure 2), so that piston 2 reaches the position close to the covering of the scavenging 11 realised on the cylinder. Then (figures 3 and 4) piston 2 continues its stroke downward, opening the exhaust ports 11 for ejection of burst gases. Now, the downward movement of the slidable head 5 begins, by the transfer of the motion from the connecting rod 3 and crank 4 system for movement of piston 2 to the slidable head 5, and that will be described in greater detail in the following.
As it can be noted from the figures, said slidable head 5 runs all along the volume of the cylinder chamber 15 while the piston 2 covers the space of the ports 11.
In this way a full scavenging of the chamber 15 is obtained, thus ejecting all the gases contained therein.
At the same time, opening 13 covers the whole extension of the opening 14 admitting air or air and fuel within the chamber 16, and consequently also inside the chamber 15 during its emptying.
Once reached the Bottom Dead Centre (B. D. C), ascent of piston 2 and slidable head 5 upward starts again.
While piston 2 fully covers exhaust ports 11 , head 5 reaches its Top Dead Centre, thus determining the transfer of fresh air from chamber 16 to the chamber 15 through the transfer valve 10. In fact, within chamber 16 that in this phase is closed outward since openings 13 and 14 do not interfere each other, compression occurs determining the opening the transfer valve 10, against the force of spring 9, until closing the valve 10 in the position shown in figure 6. In this position, piston 2 has closed exhaust ports 11 , and the compression phase begins, until reaching the position of figure 7.
Thus, in the inventive engine the cylinder scavenging and fresh air admission phase occurs when the slidable head 5 moves toward the B.D.C. (figures 2 and 3).
During the ascent phase of the slidable head 5 toward B.D.C, transfer valve 10 is always open, thus allowing the passage of the intake air from the upper part 16 to the lower part 15, i.e. between the head 5 and the piston 2. The system is realised in such a way that the movement of the slidable head 5 from its T.D.C. toward is B.D.C. exactly begins when the piston is beginning the opening of the exhaust ports 11 , ending when piston 2 is at its B.D.C. (figure 4).
When it is in this position, slidable head 5 has made a full stroke and is in correspondence of its B.D.C.
While the upward motion of piston2 begins, until closing the exhaust ports 11 , slidable head 5 makes its upward stroke toward its T.D.C.
Movement of slidable head 5 is obtained by a transmission mechanism, generically indicated by reference number 10 that, coupled with the output shaft 17, transmits the rotation to the axis 18 of the slidable head 5.
Transmission of rotation occurs in correspondence of a set arc of the output shaft 18 revolution, and particularly in correspondence of an arc of about 104°, corresponding to the arc between the point when the exhaust ports begins opening and the point when the exhaust ports 11 close (piston 2, during the rotation of the output shaft 18 along this arc opens exhaust ports 11 and, passing through its B.D.C, begins its stroke toward its T.D.C. until closing the exhaust ports 11). As it can be noted, upper part 19 of piston 2 is shaped complementary with the slidable head 5.
In the solution shown in figures 10, 11 and 12, wherein the same reference numbers are used to indicate parts corresponding with those of the previous embodiment, a spring 20 is provided, telescopically mounted within the connecting rod 6 of the mechanism for moving the slidable head 5, and serving for dampening the burst induced shock, thus reducing the pressure on the connecting rod of the transfer valve 10. Springs 21 have been provided for obtaining the same result, above the slidable head 5 (the preferable number of the springs is not indicated).
Coming now to observe figures 13 and 14, wherein the same reference numbers are used to indicate parts corresponding with those of the previous embodiment, it is provided a different realisation of the system 10 for transferring the motion from the connecting rod 3 and crank
4 system for the movement of the piston 2 to the slidable head 5.
Said system 10 provides a disc 30, with a raised arc 31 , of about 104° of the arc of the output shaft 17, so as to interfere with a toothed wheel 32 of hydraulic pump 33. Once the hydraulic pump has been actuated, it causes pressure of oil sufficient to actuating the motion of the slidable head 5.
Coming now to observe figures 15 -17, wherein the same reference numbers are used to indicate parts corresponding with those of the previous embodiment, it is provided a different realisation of the actuating system of the slidable head 5.
In this case it is provided a crankshaft 34 connected with the output shaft 18 by a toothed belt (not shown), with a transmission ratio 1 :1. Cam 34 is realised with a particular thrusting curve, in such a way to have a delayed effect on the slidable head 5, notwithstanding it is rotating.
Straight part of the cam allow the quick ascent of the head 5, by the action of spring 35, so that, when piston 2 closes the exhaust ports 11 , head 5 is at the Upper Dead Centre, having already completed the transfer of fresh mixture through valve 9.
Therefore, head 5 makes its whole stroke while piston 2 opens and closes exhaust ports 11.
Furthermore, said head 5 could be actuated by an electric coil, by compressed air or by hydraulic mechanisms (not shown in the figures), the same technical teachings of the previous embodiments remaining valid.
The present invention has been described for illustrative but not limitative purposes, according to its preferred embodiments, but it is to be understood that modifications and/or changes can be introduced by those skilled in the art without departing from the relevant scope as defined in the enclosed claims.

Claims

1. Two-stroke internal combustion engine supplied with gasoline, diesel, fuel, or other conventional fuel comprising a piston - cylinder assembly, said cylinder providing exhaust ports, said piston - cylinder assembly providing a head slidable within said cylinder between the Top Dead Centre of the piston stroke and a closure position of the exhaust ports, said slidable head providing a transfer valve for fresh air or fresh air - fuel mixture within the compression and burst chamber of the piston - cylinder assembly, sliding of said slidable head inside the cylinder being controlled by actuation means co-ordinated with the piston actuation system, upward said slidable head a fresh air or fresh air - fuel mixture system being provided for suction during the stroke of said slidable head between the Top Dead Centre and the exhaust port closure point.
2. Internal combustion engine according to claim 1 , characterised in that said slidable head provides a transfer valve controlled by at least a spring.
3. Internal combustion engine according to one of the preceding claims, characterised in that said actuation means for the slidable head provide a transmission from the output shaft to the rotation shaft of the slidable head.
4. Internal combustion engine according to one of the preceding claims, characterised in that, above said slidable head an opening is provided for admission of fresh air or fresh air - fuel mixture, a rotating disc being provided on said rotation shaft of the slidable head, a second opening being provided on said rotating disc, said second opening interfering with said first opening, for admission of fresh air or fresh air - fuel mixture in correspondence of the stroke of said slidable head between the Top Dead Centre and the exhaust port closure point.
5. Internal combustion engine according to one of the preceding claims, characterised in that said slidable head is actuated by a mechanical system, by a hydraulic or pneumatic system, or by an electromagnetic coil.
6. Internal combustion engine according to one of the preceding claims, characterised in that said slidable head is moved by the action of a spring.
7. Internal combustion engine according to one of the preceding claims, characterised in that the spark plug is mounted on the engine head.
8. Internal combustion engine according to one of the preceding claims, characterised in that the spark plug is mounted on the slidable head.
9. Internal combustion engine according to one of the preceding claims, characterised in that transfer valve of the slidable head is a reed head, or another type of head determining the inner shape of the slidable head, as well as the dimensions of the same.
10. Internal combustion engine according to one of the preceding claims, characterised in that upper surface of the piston is provided with a seat complementary with the shape of said slidable head.
11. Internal combustion engine according to one of the preceding claims, characterised in that it is supplied with gasoline or diesel fuel.
12. Internal combustion engine according to one of the preceding claims, characterised in that it is provided a standard supplying of the fuel, with carburettor.
13. Internal combustion engine according to one of the preceding claims 1 - 11 , characterised in that it is provided a direct injection supplying of the fuel.
14. Internal combustion engine according to one of the preceding claims, characterised in that means are provided for reducing the effects of the burst on the slidable head.
15. Internal combustion engine according to one of the preceding claims, characterised in that said actuation means of the slidable head provide a crankshaft connected with the output shaft by a toothed belt, with a 1 :1 transmission ratio, said cam being realised with a particular thrusting curve, so as to act with delay on the slidable head notwithstanding it is rotating, said cam having a straight part allowing ascent of the head, by the action of springs, in a much quicker way, so that, when the piston closes the exhaust ports, head is at the Top Dead Centre, having already carried out the transfer action of the fresh mixture through the transfer valve.
16. Internal combustion engine according to one of the preceding claims, characterised in that said head is actuated by electric coil, compressed air or hydraulic mechanisms.
17. Internal combustion engine according to each one of the preceding claims, substantially as illustrated and described.
EP05794503A 2004-12-29 2005-09-15 New two-stroke internal combustion engine supplied with gasoline, diesel, fuel, or other conventional fuel Withdrawn EP1831515A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
IT000643A ITRM20040643A1 (en) 2004-12-29 2004-12-29 NEW INTERNAL COMBUSTION ENGINE WITH 2-STROKE CYCLE AND FUEL FUEL OR DIESEL FUEL OR OTHER CONVENTIONAL FUEL.
PCT/IT2005/000526 WO2006070423A1 (en) 2004-12-29 2005-09-15 New two-stroke internal combustion engine supplied with gasoline, diesel, fuel, or other conventional fuel

Publications (1)

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EP1831515A1 true EP1831515A1 (en) 2007-09-12

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US (1) US7503290B2 (en)
EP (1) EP1831515A1 (en)
JP (1) JP2008525717A (en)
KR (1) KR20070098867A (en)
CN (1) CN101087937B (en)
AU (1) AU2005320893B2 (en)
CA (1) CA2593081A1 (en)
HK (1) HK1116849A1 (en)
IT (1) ITRM20040643A1 (en)
RU (1) RU2397340C2 (en)
WO (1) WO2006070423A1 (en)

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Publication number Priority date Publication date Assignee Title
US10247065B2 (en) * 2015-06-19 2019-04-02 Cesar Mercier Two-stroke internal combustion engine with crankcase lubrication system
RU2677440C2 (en) * 2017-06-29 2019-01-16 Федеральное государственное бюджетное образовательное учреждение высшего образования "Сибирский государственный университет путей сообщения" (СГУПС) Internal combustion engine
US10690043B2 (en) 2018-04-18 2020-06-23 Boyesen, Inc. Two-stroke engine and components thereof

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JPS5472306A (en) * 1977-11-18 1979-06-09 Nippon Soken Inc Two-cycle engine
JPS5587820A (en) * 1978-12-26 1980-07-03 Nippon Soken Inc Two-cycle internal combustion engine
US5809947A (en) * 1997-08-27 1998-09-22 Thompson; Kevin R. Piston valve
US6199520B1 (en) * 1999-08-26 2001-03-13 Edward Lawrence Warren Two stroke engine with displacer
JP4149621B2 (en) * 1999-09-03 2008-09-10 邦彦 奥平 Opposed piston type 2-cycle uniflow type engine
CN2424304Y (en) * 2000-06-15 2001-03-21 韩晓静 Novel two-stroke engine
US6612273B1 (en) * 2002-01-15 2003-09-02 Paul Schumacher Dual-piston compression chamber for two-cycle engines

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See references of WO2006070423A1 *

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HK1116849A1 (en) 2009-01-02
RU2007124931A (en) 2009-02-10
AU2005320893B2 (en) 2010-12-23
AU2005320893A1 (en) 2006-07-06
US7503290B2 (en) 2009-03-17
CN101087937B (en) 2010-04-21
RU2397340C2 (en) 2010-08-20
ITRM20040643A1 (en) 2005-03-29
CN101087937A (en) 2007-12-12
KR20070098867A (en) 2007-10-05
WO2006070423A1 (en) 2006-07-06
CA2593081A1 (en) 2006-07-06
JP2008525717A (en) 2008-07-17
US20070272177A1 (en) 2007-11-29

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